JP2004104673A - Digital camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To automatically set sensitivity and to make the image quality of an image obtained by photographing predictable. <P>SOLUTION: In a digital camera, at least a sensitivity parameter is automatically set among three parameters for a diaphragm, a shutter speed and the sensitivity on the basis of a result obtained by measuring the brightness of an object. A mode 4 is a shutter speed/diaphragm priority mode and is used to automatically set the sensitivity (Sv value). A mode 6 is a diaphragm priority program mode and is used to automatically set the shutter speed (Tv value) and the sensitivity (Sv value). A mode 7 is a shutter speed priority program mode and is used to automatically set the diaphragm (Av value) and the sensitivity (Sv value). A mode 8 is a mode for all programs and is used to automatically set the shutter speed (Tv value), the diaphragm (Av value) and the sensitivity (Sv value). <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a digital camera, and more particularly, to setting an exposure condition.
[0002]
[Prior art]
In a silver halide camera, the aperture and shutter speed are determined according to the sensitivity of the film loaded and the photometric result. For example, in the aperture priority program mode, when a Bv value is obtained by photometry, the shutter speed is determined according to the aperture value set at that time according to a program diagram corresponding to the ISO sensitivity of the film. The sensitivity of the film is specific to the film and does not change unless the film is changed. For this reason, conventionally, also in a digital camera, the aperture and the shutter speed are determined by giving priority to the sensitivity of the recording medium.
[0003]
[Problems to be solved by the invention]
The sensitivity of the recording medium affects the quality of the recorded image. On the other hand, the aperture and shutter speed affect picture creation such as depth of field and blur. Therefore, if the sensitivity is determined preferentially, free picture creation is limited.
[0004]
Therefore, an object of the present invention is to provide a digital camera that can automatically set the sensitivity and predict the image quality obtained based on the exposure conditions at that time.
[0005]
[Means for Solving the Problems]
A digital camera according to the present invention includes: a photometric unit that performs photometry on a subject; and a sensitivity that automatically sets at least a sensitivity parameter among three parameters of an aperture, a shutter speed, and a sensitivity based on a photometric result of the photometric unit. It is characterized by comprising setting means and sensitivity display means for displaying a set value of sensitivity.
[0006]
The sensitivity setting means may preferentially set the parameters of the aperture and the shutter speed. Alternatively, the sensitivity setting means may preferentially set one of the aperture and the shutter speed, and may set the other of the aperture and the shutter speed and the sensitivity according to a program diagram.
[0007]
It is preferable that the sensitivity setting means can change a parameter to be set with priority among the three parameters of the aperture, the shutter speed, and the sensitivity, that is, can change the exposure mode. The change of the exposure mode is preferably performed after the sensitivity display means has displayed the sensitivity, thereby simplifying the change of the sensitivity.
[0008]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a perspective view of a digital camera to which an embodiment of the present invention is applied, viewed from the rear.
[0009]
This digital camera is a single-lens reflex camera, and the interchangeable lens 11 is detachably attached to the camera body 90. An aperture ring 98 is rotatably provided on the interchangeable lens 11. An optical viewfinder 91 is provided at the center of the upper part of the camera body 90, and a liquid crystal panel (image LCD) 46 is provided at substantially the center of the back surface 92. On the liquid crystal panel 46, an image obtained by the interchangeable lens 11 is displayed as a moving image, and a still image recorded on a recording medium (not shown) such as a PC card by a shooting operation can be displayed. A mode setting switch 95 is provided beside the liquid crystal panel 46. The mode setting switch 95 is provided for setting various operation modes, and is a jog dial in the illustrated embodiment.
[0010]
When the camera body 90 is viewed from the back, a shutter button 93, a shutter speed setting switch 94, and a status display device 56 are provided on the upper right side of the camera body 90, and a sensitivity setting switch 97 is provided on the left side. Photometry, distance measurement, and the like are performed by half-pressing the shutter button 93, and a still image is recorded on the PC card by fully pressing the shutter button 93. The shutter speed is set by operating the shutter speed setting switch 94, and the sensitivity is set by operating the sensitivity setting switch 97. The status display device 56 is composed of a liquid crystal display element, on which various setting states of the digital camera are displayed as characters or symbols.
[0011]
A card slot 96 is formed on a side surface of the camera body 90. The card slot 96 is provided for inserting a PC card into the camera body 90, and a card connector (not shown) for mounting the PC card is provided inside the card slot 96.
[0012]
FIG. 2 is a block diagram mainly showing the electrical configuration of the digital camera. The operation of this camera is controlled by a system controller 31 having a microcomputer. That is, under the control of the system controller 31, a moving image or a still image is displayed on the liquid crystal panel 46, and the still image is recorded on the PC card.
[0013]
The interchangeable lens 11 is electrically connected to an electric circuit provided in the camera body 90 (FIG. 1) via the mount pins 12, 13, and 14. In the lens barrel of the interchangeable lens 11, a front lens group 15 and a rear lens group 16, which are photographing optical systems, are provided, and a stop 17 is provided between these lenses 15, 16. The focus adjustment for each of the lenses 15 and 16 is performed by a lens control circuit 18, and the zooming operation is performed by a zoom motor 19. The lens control circuit 18 and the zoom motor 19 operate according to control signals sent from the system controller 31 provided in the camera body via the mount pins 13 and 14. The aperture 17 operates according to a control signal sent from the aperture drive circuit 32 provided in the camera body via the mount pin 12, and the opening of the aperture 17 is adjusted. The aperture drive circuit 32 is controlled by the system controller 31.
[0014]
In the camera body, a quick return mirror 21 is provided on the optical axes of the lenses 15 and 16. The quick return mirror 21 is rotatable between an illustrated inclined state and an upwardly rotated horizontal state. A focusing plate 22 is provided above the quick return mirror 21, and a pentaprism 23 is provided above the focusing plate 22. Behind the pentaprism 23, the eyepiece 24 of the finder 91 (FIG. 1) is provided.
[0015]
A shutter 25 is provided behind the quick return mirror 21, and an infrared cut filter 26 and an optical low-pass filter 27 are provided behind the shutter 25. Behind the optical low-pass filter 27, a CCD (image pickup device) 33 is provided. That is, the quick return mirror 21, the shutter 25, the infrared cut filter 26, the optical low-pass filter 27, and the CCD 33 are arranged on the optical axes of the lenses 15 and 16.
[0016]
The rotating operation of the quick return mirror 21 is driven by a mirror driving circuit 34, and the opening and closing operation of the shutter 25 is driven by a shutter driving circuit 35. The mirror drive circuit 34 and the shutter drive circuit 35 are controlled by the system controller 31.
[0017]
Usually, the mirror 21 is set in an inclined state, and guides the light taken from the interchangeable lens 11 to the pentaprism 23 side. At this time, the shutter 25 is closed, and the optical path toward the CCD 33 is closed. On the other hand, when photographing is performed, the mirror 21 is rotated upward under the control of the mirror driving circuit 34, and becomes a horizontal state. With the rotation of the mirror 21, the shutter 25 is opened by the control of the shutter drive circuit 35, and the light taken in from the interchangeable lens 11 irradiates the light receiving surface of the CCD 33. That is, an image obtained by the lenses 15 and 16 is formed on the light receiving surface, and the CCD 33 generates an imaging signal corresponding to the image.
[0018]
A pulse signal generating circuit (PPG) 36 is connected to the system controller 31, and the pulse signal generating circuit 36 generates various pulse signals under the control of the system controller 31. The CCD drive circuit 37, the A / D converter 38, and the image signal processing circuit 39 are driven based on these pulse signals, and the operation of the CCD 33 is controlled by the CCD drive circuit 37. An amplifier 48 is connected to the system controller 31. The imaging signal read from the CCD 33 is amplified by the amplifier 48 and is converted by the A / D converter 38 into digital image data. This image data is subjected to predetermined image processing in an image signal processing circuit 39. The image signal processing circuit 39 is connected to an image buffer memory 40 having a sufficient capacity for storing image data corresponding to one image.
[0019]
Further, a monitor interface 41 and a card interface 42 are connected to the image signal processing circuit 39. These interfaces 41 and 42 are controlled by the system controller 31.
[0020]
A backlight 45 and a liquid crystal panel 46 are connected to the monitor interface 41 via a liquid crystal drive circuit 44. In the liquid crystal panel 46, as described above, the liquid crystal driving circuit 44 is controlled based on the image data read from the image buffer memory 40, and a still image is displayed. A card connector 47 is connected to the card interface 42, and a PC card 43 can be attached to the card connector 47.
[0021]
An AF sensor 51, a photometric sensor 52, and an automatic white balance (AWB) sensor 53 are connected to the system controller 31. The AF sensor 51 has a conventionally known configuration, and the AF sensor 51 measures the focus adjustment state of the lenses 15 and 16. The photometry sensor 52 performs photometry for determining the opening degree of the aperture 17 during exposure and the charge accumulation time (exposure time) in the CCD 33. The color temperature of the ambient light is measured by the auto white balance sensor 53.
[0022]
Further, a photometric switch 54, a release switch 55, and a status display device 56 are connected to the system controller 31. The photometric switch 54 is turned on by half-pressing the shutter button 93, whereby photometry is performed by the photometric sensor 52. The release switch 55 is turned on when the shutter button 93 is fully pressed, whereby the shutter 25 is driven to open and close. That is, the CCD 33 is exposed, and an imaging signal corresponding to an image is generated in the CCD 33.
[0023]
Further, a mode setting switch 95, a shutter speed setting switch 94, and a sensitivity setting switch 97 are connected to the system controller 31. The mode setting switch 95 is a jog dial as described above. By setting the jog dial to a predetermined rotation position, a predetermined mode is selected from a setting menu displayed on the liquid crystal panel 46, and the mode is switched by pressing the jog dial. Is set.
[0024]
FIG. 3 shows a display example in each exposure mode displayed on the display screen of the status display device 56. In the present embodiment, eight types of exposure modes, mode 1 to mode 8, can be selected, and these are selected by operating the mode setting switch 95. In each exposure mode, the Tv value, Av value, and Sv value, which are parameters corresponding to the shutter speed, aperture, and sensitivity, are set manually or automatically.
[0025]
Mode 1 is a manual mode in which the shutter speed, aperture, and sensitivity are set manually. The shutter speed is set by a shutter speed setting switch 94. The aperture is set by an aperture ring 98, and the sensitivity is set by a sensitivity setting switch 97. The gain of the amplifier 48 is determined according to the sensitivity (Sv value), and FIG. 4 shows an example of the relationship between the sensitivity and the gain. On the screen of the status display device 56, the characters “Tv”, “Av”, and “Sv” are displayed in the upper row, which indicates that the shutter speed, aperture, and sensitivity are set manually. . In the lower part of the screen, the shutter speed value (“30” in FIG. 3) is displayed below Tv, the aperture value (F8.0 in FIG. 3) is displayed below Av, and the value of Sv is displayed. The sensitivity value (“ISO100” in FIG. 3) is displayed on the lower side.
[0026]
Mode 2 is an aperture / sensitivity priority mode, where the aperture and sensitivity are set manually. On the screen of the status display device 56, the letters “Av” and “Sv” corresponding to the aperture and the sensitivity are displayed in the upper row, which indicates that the aperture and the sensitivity are set manually. At the bottom of the screen, the shutter speed, the aperture, and the sensitivity are displayed, and the shutter speed is automatically set according to the result of the photometric calculation. That is, for example, when the aperture ring 98 is rotated to change the aperture, the shutter speed automatically changes according to the result of the photometric calculation.
[0027]
Mode 3 is a shutter speed / sensitivity priority mode in which the shutter speed and sensitivity are set manually. On the screen of the status display device 56, characters “Tv” and “Sv” corresponding to the shutter speed and the sensitivity are displayed in the upper part. At the bottom of the screen, the shutter speed, aperture, and sensitivity are displayed, and the aperture is automatically set according to the result of the photometric calculation. For example, when the sensitivity is changed by rotating the sensitivity setting switch 97, the aperture automatically changes according to the result of the photometric calculation.
[0028]
Mode 4 is a shutter speed / aperture priority mode, in which the shutter speed and the aperture are set manually. On the screen of the status display device 56, characters “Tv” and “Av” corresponding to the shutter speed and the aperture are displayed in the upper row. The shutter speed, the aperture, and the sensitivity are displayed at the bottom of the screen, and the sensitivity is automatically set according to the result of the photometric calculation. For example, when the shutter speed is changed by rotating the shutter speed setting switch 94, the sensitivity automatically changes in accordance with the result of the photometric calculation.
[0029]
Mode 5 is a sensitivity priority program mode in which the sensitivity is manually set, and the shutter speed and aperture are set according to a program diagram. On the screen of the status display device 56, the characters “TvP”, “AvP”, and “Sv” are displayed in the upper row, which indicates that the shutter speed and the aperture are set according to the program diagram. . At the bottom of the screen, the shutter speed, aperture, and sensitivity are displayed. When the sensitivity is changed by rotating the sensitivity setting switch 97, the shutter speed and the aperture automatically change in accordance with the program diagram in accordance with the result of the photometric calculation.
[0030]
Mode 6 is an aperture priority program mode in which the aperture is set manually and the shutter speed and sensitivity are set according to a program diagram. On the screen of the status display device 56, the characters “TvP”, “Av”, and “SvP” are displayed in the upper row, which indicates that the shutter speed and the sensitivity are respectively set according to the program diagram. . At the bottom of the screen, the shutter speed, aperture, and sensitivity are displayed. When the aperture ring 98 is rotated to change the aperture, the shutter speed and sensitivity automatically change according to the result of the photometric calculation according to the program diagram.
[0031]
Mode 7 is a shutter speed priority program mode in which the shutter speed is set manually, and the aperture and sensitivity are set according to a program diagram. On the screen of the status display device 56, the characters “Tv”, “AvP”, and “SvP” are displayed in the upper row, indicating that the aperture and the sensitivity are set according to the program diagram. At the bottom of the screen, the shutter speed, aperture, and sensitivity are displayed. When the shutter speed is changed by rotating the shutter speed setting switch 94, the aperture and the sensitivity automatically change according to the result of the photometric calculation according to the program diagram.
[0032]
Mode 8 is a full program mode in which the shutter speed, aperture, and sensitivity are set according to a program diagram. On the screen of the status display device 56, the letters “TvP”, “AvP”, and “SvP” are displayed in the upper row, indicating that the shutter speed, aperture, and sensitivity are set according to the program diagram, respectively. ing. At the bottom of the screen, the shutter speed, aperture, and sensitivity are displayed. In this mode, the shutter speed, aperture, and sensitivity are set according to the program diagram according to the result of the photometric calculation, and cannot be freely selected by the user.
[0033]
5 to 13 are flowcharts of a photographing operation control routine for executing a photographing operation by selecting an exposure mode. The shooting operation control routine is executed by the system controller 31.
[0034]
In step 101, the setting state of the mode setting switch 95 (FIG. 1) is detected, and the exposure mode is selected. In step 102, it is determined whether or not mode 1 (manual mode) has been selected. When mode 1 is selected, the process proceeds to step 201 to execute a shooting operation in the manual mode. When mode 1 is not selected, it is determined in step 103 whether mode 2 (aperture / sensitivity priority mode) is selected. When mode 2 is selected, the process proceeds to step 301 to execute the aperture / sensitivity priority mode, and when mode 2 is not selected, the process proceeds to step 104.
[0035]
As described above, when it is determined in step 104 that mode 3 (shutter speed / sensitivity priority mode) has been selected, the process proceeds to step 401, and in step 105, mode 4 (shutter speed / aperture priority mode). When it is determined that is selected, the process proceeds to step 501. If it is determined in step 106 that mode 5 (sensitivity priority program mode) has been selected, the process proceeds to step 601. If it is determined in step 107 that mode 6 (aperture priority program mode) has been selected, step 601 occurs. Proceed to 701. If it is determined in step 108 that mode 7 (shutter speed priority program mode) is selected, the process proceeds to step 801. If it is determined that mode 7 is not selected, mode 8 (all modes) is selected. The program proceeds to step 901 assuming that the program mode is selected.
[0036]
In step 201, characters “Tv”, “Av”, and “Sv” are displayed in the upper part of the screen of the status display device 56. In step 202, the Tv value, the Av value, and the Sv value are displayed in the lower part of the screen ([mode 1] in FIG. 3). These values are the values set by the shutter speed setting switch 94, aperture ring 98, and sensitivity setting switch 97 at that time.
[0037]
In step 203, it is determined whether or not the release switch 55 is set to the ON state. If the release switch 55 is off, it is determined in step 204 whether the exposure mode has been changed. If not, the process returns to step 202. The exposure mode is changed by operating the mode setting switch 95. When the release switch 55 is off and the exposure mode is not changed, steps 202, 203, and 204 are repeatedly executed. During this time, if the Tv value, the Av value, or the Sv value is changed by operating the shutter speed setting switch 94, the aperture ring 98, or the sensitivity setting switch 97, the updated value is displayed in step 202. .
[0038]
On the other hand, if the release switch 55 is turned on during the execution of steps 202, 203, and 204, the process proceeds from step 203 to step 205, where a shooting routine described later is executed, and the shooting operation control routine ends. When the exposure mode is changed, the process returns from step 204 to step 102. That is, the process proceeds to a predetermined step through any of steps 103 to 108 according to the type of the changed exposure mode, and a process according to the exposure mode is executed.
[0039]
In step 301, characters “Av” and “Sv” are displayed in the upper part of the screen of the status display device 56. In step 302, the Av value and the Sv value are displayed in the lower part of the screen ([mode 2] in FIG. 3). These values are the values set by the aperture ring 98 and the sensitivity setting switch 97 at that time. The Tv value is displayed by executing step 306 described later.
[0040]
In step 303, it is determined whether or not the photometry switch 54 is on. When the photometry switch 54 is off, it is determined in step 304 whether the exposure mode has been changed, and if not, the process returns to step 302. When the photometry switch 54 is off and the exposure mode is not changed, steps 302, 303, and 304 are repeatedly executed. During this period, if the Av value or the Sv value is changed by operating the aperture ring 98 or the sensitivity setting switch 97, the updated value is displayed in step 302.
[0041]
If the photometry switch 54 is turned on during the execution of steps 302, 303, and 304, the process proceeds from step 303 to step 305. That is, photometry is performed on the subject, and photometric calculation is performed to obtain a Tv value. In step 306, the Tv value is displayed on the screen of the status display device 56.
[0042]
In step 307, it is determined whether or not the release switch 55 is set to the ON state. When the release switch 55 is off, it is determined in step 308 whether or not the photometry switch 54 is maintained on. When the release switch 55 is off and the photometry switch 54 is on, steps 307 and 308 are repeatedly executed. If the release switch 55 is turned on during this time, the process proceeds from step 307 to step 309 to execute the shooting routine, and the shooting operation control routine ends. When the photometric switch 54 is turned off, the process returns from step 308 to step 302, and steps 302, 303, and 304 are repeatedly executed.
[0043]
If the exposure mode is changed during execution of steps 302, 303 and 304, the process returns from step 304 to step 102.
[0044]
In step 401, characters “Tv” and “Sv” are displayed in the upper part of the screen of the status display device 56. In step 402, the Tv value and the Sv value are displayed at the bottom of the screen ([mode 3] in FIG. 3). These values are the values set by the shutter speed setting switch 94 and the sensitivity setting switch 97 at that time. The Av value is displayed by executing step 406 described below.
[0045]
In step 403, it is determined whether the photometry switch 54 is on. When the photometry switch 54 is off, it is determined in step 404 whether or not the exposure mode has been changed. When the exposure mode has not been changed, the process returns to step 402. When the photometry switch 54 is off and the exposure mode is not changed, steps 402, 403, and 404 are repeatedly executed. During this time, if the Tv value or the Sv value is changed by operating the shutter speed setting switch 94 or the sensitivity setting switch 97, the updated value is displayed in step 402.
[0046]
If the photometry switch 54 is turned on during the execution of steps 402, 403, and 404, the process proceeds from step 403 to step 405. That is, the photometric calculation is executed to obtain the Av value. In step 406, the Av value is displayed on the screen of the status display device 56. On the other hand, if the exposure mode is changed during execution of steps 402, 403, and 404, the process returns from step 404 to step 102.
[0047]
The operation of steps 407 to 409 is basically the same as steps 307 to 309.
[0048]
In step 501, characters “Tv” and “Av” are displayed in the upper part of the screen of the status display device 56. In step 502, the Tv value and the Av value are displayed at the bottom of the screen ([mode 4] in FIG. 3). These values are the values set by the shutter speed setting switch 94 and the aperture ring 98 at that time. The Sv value is displayed by executing step 506 described later.
[0049]
In step 503, it is determined whether the photometry switch 54 is on. When the photometry switch 54 is off, it is determined in step 504 whether or not the exposure mode has been changed. When the exposure mode has not been changed, the process returns to step 502. When the photometry switch 54 is off and the exposure mode is not changed, steps 502, 503, and 504 are repeatedly executed. During this time, if the Tv value or the Av value is changed by operating the shutter speed setting switch 94 or the aperture ring 98, the updated value is displayed in step 502.
[0050]
If the photometric switch 54 is turned on during execution of steps 502, 503, and 504, the process proceeds from step 503 to step 505. That is, the photometric calculation is performed, and the Sv value is automatically set based on the photometric result. In step 506, the set Sv value is displayed. On the other hand, if the exposure mode is changed during execution of steps 502, 503, and 504, the process returns from step 504 to step 102.
[0051]
The operation of steps 507-509 is basically the same as steps 307-309.
[0052]
In step 601, characters “TvP”, “AvP”, and “Sv” are displayed in the upper part of the screen of the status display device 56. In step 602, the Sv value is displayed at the bottom of the screen ([mode 5] in FIG. 3). This value is the value set by the sensitivity setting switch 97 at that time. The Tv value and the Av value are displayed by executing step 606 described later.
[0053]
In step 603, it is determined whether or not the photometry switch 54 is on. When the photometry switch 54 is off, it is determined in step 604 whether or not the exposure mode has been changed. When the exposure mode has not been changed, the process returns to step 602. When the photometry switch 54 is off and the exposure mode is not changed, steps 602, 603, and 604 are repeatedly executed. During this time, if the Sv value is changed by operating the sensitivity setting switch 97, the updated value is displayed in step 602.
[0054]
If the photometric switch 54 is turned on during execution of steps 602, 603, and 604, the process proceeds from step 603 to step 605. That is, the photometric calculation is executed, and the Tv value and the Av value are automatically set according to the program diagram according to the photometric result. An example of the program diagram is as shown in FIG. In step 606, the set Tv value and Av value are displayed. On the other hand, if the exposure mode is changed during execution of steps 602, 603, and 604, the process returns from step 604 to step 102.
[0055]
The operations of steps 607 to 609 are basically the same as steps 307 to 309.
[0056]
In step 701, characters “TvP”, “Av”, and “SvP” are displayed in the upper part of the screen of the status display device 56. In step 702, the Av value is displayed in the lower part of the screen ([mode 6] in FIG. 3). This value is the value set by the aperture ring 98 at that time. The Tv value and the Sv value are displayed by executing step 706 described later.
[0057]
In step 703, it is determined whether the photometry switch 54 is on. When the photometry switch 54 is off, it is determined in step 704 whether the exposure mode has been changed. When the exposure mode has not been changed, the process returns to step 702. When the photometry switch 54 is off and the exposure mode is not changed, steps 702, 703, and 704 are repeatedly executed. During this time, if the Av value is changed by operating the aperture ring 98, the updated value is displayed in step 702.
[0058]
If the photometric switch 54 is turned on during execution of steps 702, 703, and 704, the process proceeds from step 703 to step 705. That is, the photometric calculation is executed, and the Tv value and the Sv value are automatically set according to the program diagram according to the photometric result. An example of the program diagram is as shown in FIG. In step 706, the set Tv value and Sv value are displayed. On the other hand, if the exposure mode is changed during execution of steps 702, 703, and 704, the process returns from step 704 to step 102.
[0059]
The operations of steps 707 to 709 are basically the same as steps 307 to 309.
[0060]
In step 801, characters “Tv”, “AvP”, and “SvP” are displayed in the upper part of the screen of the status display device 56. In step 802, the Tv value is displayed at the bottom of the screen ([mode 7] in FIG. 3). This value is the value set by the shutter speed setting switch 94 at that time. The Av value and the Sv value are displayed by executing step 806 described later.
[0061]
In step 803, it is determined whether or not the photometry switch 54 is on. When the photometry switch 54 is off, it is determined in step 804 whether or not the exposure mode has been changed. When the exposure mode has not been changed, the process returns to step 802. When the photometry switch 54 is off and the exposure mode is not changed, steps 802, 803, and 804 are repeatedly executed. During this time, if the Tv value is changed by operating the shutter speed setting switch 94, the updated value is displayed in step 802.
[0062]
If the photometric switch 54 is switched to the ON state during execution of steps 802, 803, and 804, the process proceeds from step 803 to step 805. That is, the photometric calculation is executed, and the Av value and the Sv value are automatically set according to the program diagram according to the photometric result. An example of the program diagram is as shown in FIG. In step 806, the set Av value and Sv value are displayed. On the other hand, if the exposure mode is changed during execution of steps 802, 803, and 804, the process returns from step 804 to step 102.
[0063]
The operation of steps 807 to 809 is basically the same as that of steps 307 to 309.
[0064]
In step 901, characters “TvP”, “AvP”, and “SvP” are displayed in the upper row of the screen of the status display device 56 ([mode 8] in FIG. 3). In step 902, it is determined whether the photometry switch 54 is on. When the photometry switch 54 is off, it is determined in step 903 whether or not the exposure mode has been changed. When the exposure mode has not been changed, the process returns to step 902. When the photometry switch 54 is off and the exposure mode is not changed, steps 902 and 903 are repeatedly executed.
[0065]
If the photometric switch 54 is turned on during the execution of steps 902 and 903, the process proceeds from step 902 to step 904. That is, the photometric calculation is executed, and the Tv value, the Av value, and the Sv value are automatically set according to the program diagram according to the photometric result. An example of the program diagram is as shown in FIG. In step 905, the set Tv value, Av value, and Sv value are displayed. On the other hand, if the exposure mode is changed during execution of steps 902 and 903, the process returns from step 903 to step.
[0066]
The operations of steps 906 to 908 are basically the same as steps 307 to 309.
[0067]
FIG. 18 is a flowchart of a photographing routine executed in step 205 in FIG. The shooting routine is executed by the system controller 31.
[0068]
In step 211, the gain of the amplifier 48 corresponding to the sensitivity (Sv value) is set (see FIG. 4). In step 212, the aperture of the aperture 17 is driven in the closing direction from the open state to a size corresponding to the Av value. In step 213, the mirror 21 is driven up to rotate from the inclined state to the horizontal state.
[0069]
In step 214, the aperture 17 is driven to open and close at a speed corresponding to the Tv value, whereby the CCD 33 is exposed. In step 215, the mirror 21 is driven down to rotate from the horizontal state to the inclined state. In step 216, the aperture 17 is driven to open to the fully opened state. In step 217, the imaging signal is read from the CCD 33, subjected to the above-described image processing, and recorded on the PC card 43.
[0070]
As described above, in the present embodiment, the automatically set sensitivity (Sv value) is displayed on the screen of the status display device 56, as is clear from the description of the modes 4, 6, 7, and 8. The image quality of an image obtained by shooting can be predicted. Therefore, if photographing is to be performed with priority given to the creation of a picture such as depth of field or blur, for example, in the shutter speed / aperture priority mode (mode 4), the desired operation is performed by operating the shutter speed setting switch 94 and the aperture ring 98. By setting the exposure, the sensitivity at that time is displayed, so that the image quality at the time of shooting with the exposure setting can be predicted. With this, the shutter speed and the exposure setting of the aperture can be reviewed again.
[0071]
【The invention's effect】
As described above, according to the present invention, the sensitivity can be automatically set, and the set sensitivity is displayed, so that the image quality of an image obtained by shooting can be easily predicted.
[Brief description of the drawings]
FIG. 1 is a perspective view of a digital camera according to an embodiment of the present invention as viewed from behind.
FIG. 2 is a block diagram mainly showing an electrical configuration of the digital camera.
FIG. 3 is a diagram illustrating a display example in each exposure mode, which is displayed on a display screen of a state display device.
FIG. 4 is a diagram illustrating an example of a relationship between sensitivity and gain.
FIG. 5 is a flowchart showing a first part of a shooting operation control routine.
FIG. 6 is a flowchart illustrating a part of a process in a manual mode of a shooting operation control routine.
FIG. 7 is a flowchart showing a part of a process in an aperture / sensitivity priority mode of a shooting operation control routine.
FIG. 8 is a flowchart showing a part of processing in a shutter speed / sensitivity priority mode of a shooting operation control routine.
FIG. 9 is a flowchart showing a part of processing of a shutter speed / aperture priority mode in a shooting operation control routine.
FIG. 10 is a flowchart showing a part of processing in a sensitivity priority program mode of a shooting operation control routine.
FIG. 11 is a flowchart showing a part of a process in an aperture priority program mode of a shooting operation control routine.
FIG. 12 is a flowchart showing a part of processing in a shutter speed priority program mode of a shooting operation control routine.
FIG. 13 is a flowchart showing a part of processing in an entire program mode of a shooting operation control routine.
FIG. 14 is a diagram showing an example of a program diagram used in a photographing operation in a sensitivity priority program mode.
FIG. 15 is a diagram showing an example of a program diagram used in a photographing operation in the aperture priority program mode.
FIG. 16 is a diagram illustrating an example of a program diagram used in a shooting operation in a shutter speed priority program mode.
FIG. 17 is a diagram showing an example of a program diagram used in a shooting operation in all program modes.
FIG. 18 is a flowchart illustrating a photographing routine.
[Explanation of symbols]
31 System Controller
94 Shutter speed setting switch
97 Sensitivity setting switch
98 aperture ring

Claims (5)

Photometric means for performing photometry on a subject; sensitivity setting means for automatically setting at least a sensitivity parameter among three parameters of an aperture, a shutter speed and sensitivity based on a photometric result by the photometric means; A digital camera, comprising: sensitivity display means for displaying a set value. 2. The digital camera according to claim 1, wherein the sensitivity setting unit sets parameters of an aperture and a shutter speed with priority. 2. The digital camera according to claim 1, wherein the sensitivity setting unit sets one of the aperture and the shutter speed preferentially, and sets the other of the aperture and the shutter speed and the sensitivity according to a program diagram. 2. The digital camera according to claim 1, wherein the sensitivity setting unit can change a parameter to be set with priority among the three parameters of the aperture, the shutter speed, and the sensitivity. 3. The sensitivity setting means can change a parameter to be set preferentially among three parameters of the aperture, shutter speed and sensitivity after the sensitivity display means displays the sensitivity. 5. The digital camera according to 4.

Images